AIRJOULE 

ATMOSPHERIC ENERGY AND WATER HARVESTING TECHNOLOGY

Our vision with AIRJOULE is to be the world leader in harvesting atmospheric energy and water, to advance climate solutions for the 21st century

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  • AirJoule conditions air (cools/heats) as a standalone system or as an enhancement to existing air conditioning systems.

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  • AirJoule harvests the untapped supply of renewable energy in the atmosphere to condition spaces and provide a new source of clean renewable energy and liquid water.

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  • AirJoule harvests water vapor (humidity) and conditions spaces at a fraction of the cost of conventional HVAC systems.

AIRJOULE IS A TRANSFORMATIONAL TECHNOLOGY 

Conventional Systems

  • 119-year-old compressor/refrigerant

  • Co-Efficient of Performance 3 - 3.5

  • 250 - 500 WHrs / L of water (humidity)

  • Evaporative cooling

  • Doesn’t work in humid climates

  • Consumes water

IMPACT

5-10X
Less Energy

3X COP
(Heating Mode)

1.75X
Greater Range

AirJoule

  • AirJoule eliminates compressor and refrigerant

  • Co-Efficient of Performance of 15

  • 50 WHrs / L of water (humidity)

  • Evaporative cooling (and heating)

  • Works in all climates

  • Produces its own water

  • Electric bus: HVAC diminishes driving range

  • Electric bus: Driving range increased by up to 75%

HOW AIRJOULE WORKS

AirJoule's proprietary dual chamber design thermally connects the water vapor uptake process in one chamber to the water harvesting process in the other chamber, solving legacy thermal constraints encountered by prior designs attempting to utilize metal organic frameworks.

  • Each chamber houses aluminum structures coated with MOF material that adsorbs (captures) water vapor in one mode and desorbs (harvests) water and heat energy in its alternate mode

  • AirJoule uses its own adsorption heat to regenerate the MOF which eliminates the need for external heat, greatly reducing electrical consumption and cost

  • In addition to conditioned air, residual thermal energy and water output are used for beneficial purposes in the system